People metering enhanced with light projection prompting for audience measurement

ABSTRACT

Example meters disclosed herein include a prompting indicator to emit a prompt for user input. Disclosed example meters also include a controller to determine whether the meter is to transition to a first prompting mode, or whether the meter is to transition to a second prompting mode different from the first prompting mode, the meter to be able to operate in at least a quiet mode, the first prompting mode or the second prompting mode. The controller is also to activate the prompting indicator and a light projector when the meter is to transition to the second prompting mode, the light projector to project light. The controller is further to activate the prompting indicator, but not activate the light projector, when the meter is to transition to the first prompting mode.

RELATED APPLICATION(S)

This patent arises from a continuation of U.S. patent application Ser.No. 15/400,731 (now U.S. Pat. No. ______), which is entitled “PEOPLEMETERING ENHANCED WITH LIGHT PROJECTION PROMPTING FOR AUDIENCEMEASUREMENT,” and which was filed on Jan. 6, 2017. Priority to U.S.patent application Ser. No. 15/400,731 is hereby expressly claimed. U.S.patent application Ser. No. 15/400,731 is hereby incorporated byreference in its entirety.

FIELD OF THE DISCLOSURE

This disclosure relates generally to audience measurement and, moreparticularly, to people metering enhanced with light projectionprompting for audience measurement.

BACKGROUND

Audience measurement systems typically include one or more site metersto monitor the media presented by one or more media devices located at amonitored site. Many such audience measurement systems also include oneor more people meters to obtain information characterizing thecomposition(s) of the audience(s) in the vicinity of the media device(s)being monitored. Prior people meters generally fall into two categories,namely, active people meters or passive people meters. An active peoplemeter obtains audience information by actively prompting an audiencemember to press an input key or otherwise enter information via thepeople meter. A passive people meter obtains audience information bypassively monitoring the audience, usually by using facial recognitiontechniques to identify the individual audience members included in theaudience.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram of an example audience measurement systemincluding an example site meter and an example enhanced people meterimplementing people metering enhanced with light projection prompting inaccordance with the teachings of this disclosure.

FIG. 2 illustrates front and side views of an example arrangement of anexample media device and the example enhanced people meter of FIG. 1.

FIG. 3 is a block diagram of an example integrated version of theenhanced people meter of FIG. 1 in communication with the example sitemeter of FIG. 1 to perform audience measurement associated with anexample media device.

FIG. 4 is a block diagram of an example non-integrated version of theenhanced people meter of FIG. 1 in communication with the example sitemeter of FIG. 1 to perform audience measurement associated with anexample media device.

FIG. 5 is a block diagram of an example implementation of the integratedversion of the enhanced people meter of FIG. 3.

FIG. 6 is a block diagram of an example implementation of thenon-integrated version of the enhanced people meter of FIG. 4.

FIGS. 7-8 are flowcharts representative of example computer readableinstructions that may be executed to implement the example enhancedpeople meters of FIGS. 1-5 and/or 6.

FIG. 9 is a block diagram of an example processor platform structured toexecute the example computer readable instructions of FIGS. 7 and/or 8to implement the example enhanced people meters of FIGS. 1-5 and/or 6.

The figures are not to scale. Wherever possible, the same referencenumbers will be used throughout the drawing(s) and accompanying writtendescription to refer to the same or like parts, elements, etc.

DETAILED DESCRIPTION

People metering enhanced with light projection prompting for audiencemeasurement is disclosed herein. As noted above, prior people meters foraudience measurement are generally either active or passive. An activepeople meter obtains audience information by actively prompting anaudience to enter information for audience member identification. Apassive people meter obtains audience information passively, usually bycapturing images of the audience using a camera and then employingfacial recognition to identify the individual audience members includedin the audience. Active people meters are generally simpler and lesscostly than passive people meters, but are prone to measurement errordue to audience fatigue over time, lack of audience compliance, etc.Passive people meters do not rely on audience compliance and, thus, canbe more reliable, but also require substantially more computingresources to implement accurate facial recognition processing. Theaccuracy of the passive people meters may also depend on their camerasbeing properly positioned to capture images clearly depicting the facesof the audience members. As such, passive people meters are often toocostly to deploy in a statistically significant number of monitoredsites and/or are unable to be used in some sites to be monitored due torestrictions on camera placement.

In contrast, people metering examples for audience measurement disclosedherein employ active people metering with light projection prompting,which can improve audience compliance and, thus, audience measurementaccuracy, but without incurring the costs associated with facialrecognition techniques and/or other implementation aspects associatedwith passive people meters. Example people metering methods disclosedherein include determining whether a people meter is to enter a firstprompting mode (e.g., such as a rude prompting mode, examples of whichare described in further detail below). Disclosed example peoplemetering methods also include, in response to determining the peoplemeter is to enter the first prompting mode, activating a light projectorto project light onto a surface, such as, but not limited to, anexternal surface of a display screen of a media device (e.g., such as atelevision, a computer, etc.) Disclosed example people metering methodsfurther include, after the light projector is activated, deactivatingthe light projector in response to determining the people meter is toexit the first prompting mode. Projecting light onto the externalsurface the media device's display will degrade the presentation qualityof the media being displayed by the media device until a user input isreceived. Thus, people metering with light projection prompting, asdisclosed herein, improves audience compliance by encouraging audiencemembers to respond to people meter prompts to stop the light projectiononto the media device's screen and the associated degradation of themedia presentation.

In some disclosed example people metering methods, the people meter isable to operate in the first prompting mode, a second prompting mode(e.g., a normal prompting mode, examples of which are described infurther detail below) different from the first prompting mode, and aquiet mode. In some such examples, the people meter is to emit a firsttype of prompt while operating in the first prompting mode, the peoplemeter is to emit a second type of prompt while operating in the secondprompting mode, and the people meter is to perform no prompting whileoperating in the quiet mode. Some such disclosed example people meteringmethods also include activating the light projector while the peoplemeter is operating in the first prompting mode, and not activating thelight projector while the people meter is operating in the secondprompting mode or the quiet mode. Furthermore, in some such disclosedexample people metering methods, the people meter is to enter the quietmode in response to detection of a user input while the people meter isoperating in at least one of the first prompting mode or the secondprompting mode, and the people meter is to enter the first promptingmode when no user input is detected after the people meter has operatedin the second prompting mode for a first time period.

Additionally or alternatively, in some disclosed example people meteringmethods, the surface corresponds to an external surface of a displayscreen of a media device, and the light projector, when activated, is toproject at least one of a white spot, a colored spot or a text messageon the external surface of the display screen of the media device.

Additionally or alternatively, some disclosed example people meteringmethods further include controlling the light projector to project thelight according to a first pulsing pattern having a first pulsingfrequency after the light projector is activated. Some such disclosedexample people metering methods also include controlling the lightprojector to project the light according a second pulsing pattern havinga second pulsing frequency different than (e.g., higher than) the firstpulsing frequency in response to determining a first time period haselapsed while the light projector remains activated. Additionally oralternatively, some such disclosed example people metering methodsinclude controlling the light projector to at least one of change acolor or change a projection area of the light in response todetermining the first time period has elapsed while the light projectorremains activated.

These and other example methods, apparatus, systems and articles ofmanufacture (e.g., physical storage media) to implement people meteringenhanced with light projection prompting for audience measurement aredisclosed in further detail below.

Turning to the figures, a block diagram of an example audiencemeasurement system 100 employing people metering enhanced with lightprojection prompting for audience measurement in accordance with theteachings of this disclosure is illustrated in FIG. 1. The exampleaudience measurement system 100 supports monitoring of media exposure toaudiences at one or more monitored sites, such as the example monitoredsite 105 illustrated in FIG. 1. The monitored site 105 includes anexample media device 110 and an example audience area 115. The audiencearea 115 corresponds to one or more locations at the monitored site 105in which an audience 120 is expected to be present when consuming media(e.g., viewing and/or hearing the media, interacting with the media,etc.) presented by the media device 110. The audience area 115 caninclude, but is not limited to, a room containing the media device 110,a sitting area in front of the media device 110, etc. Although theexample of FIG. 1 illustrates one monitored site 105, people meteringenhanced with light projection prompting as disclosed herein can be usedin audience measurement systems 100 supporting any number of monitoredsites 105.

The audience measurement system 100 of the illustrated example includesan example site meter 125, also referred to as an example device meter125, etc., to monitor media presented by the media device 110. Tosupport people metering enhanced with light projection prompting at themonitored site 105 in accordance with the teachings of this disclosure,the example audience measurement system 100 of FIG. 1 also includes anexample enhanced people meter 130, which is described in further detailbelow. In the illustrated example, the site meter 125 determinesaudience measurement data characterizing media exposure at the monitoredsite 105 by combining media metering data (also referred to as contentmetering data, content monitoring data, content measurement data, tuningdata, etc.), which is determined by monitoring the media device 110,with audience identification data (also referred to as demographic data,people meter data, etc.), which is provided by the enhanced people meter130. The site meter 125 then stores and reports this audiencemeasurement data via an example network 135 to an example dataprocessing facility 140. The data processing facility 140 performs anyappropriate post-processing of the audience measurement data to, forexample, determine audience ratings information, identify targetedadvertising to be provided to the monitored site 105, etc. In theillustrated example, the network 135 can correspond to any type(s)and/or number of wired and/or wireless data networks, such as, but notlimited to, the Internet, or any combination of networks thereof.

In the illustrated example, the media device 110 monitored by the sitemeter 125 can correspond to any type of audio, video and/or multimediadevice capable of presenting media audibly and/or visually. As usedherein, the term “media” includes any type of content and/oradvertisement delivered via any type of distribution medium. Thus, mediaincludes television programming or advertisements, radio programming oradvertisements, movies, web sites, streaming media, etc. The examplemedia device 110 of the illustrated example shown in FIG. 1 is a devicethat receives media from one or more media providers for presentation.In some examples, the media device 110 is capable of directly presentingmedia (e.g., via a display) while, in other examples, the media device110 presents the media on separate media presentation equipment (e.g.,speakers, a display, etc.). Thus, as used herein, “media devices” may ormay not be able to present media without assistance from a seconddevice. Media devices are typically consumer electronics.

For example, the example media device 110 can correspond anInternet-enabled television, a personal computer, an Internet-enabledmobile handset (e.g., a smartphone), a video game console (e.g., Xbox®,PlayStation®), a tablet computer (e.g., an iPad®), a digital mediaplayer (e.g., a Roku® media player, a Slingbox®, etc.), a radio, etc. Insome examples, the media device 110 corresponds to a television and/ordisplay device that supports the National Television Standards Committee(NTSC) standard, the Phase Alternating Line (PAL) standard, the SystèmeÉlectronique pour Couleur avec Mémoire (SECAM) standard, a standarddeveloped by the Advanced Television Systems Committee (ATSC), such ashigh definition television (HDTV), a standard developed by the DigitalVideo Broadcasting (DVB) Project, etc.

The site meter 125 included in the audience measurement system 100 ofthe illustrated example can correspond to any type of metering devicecapable of monitoring media presented by the media device 110. As such,the site meter 125 may utilize invasive monitoring involving one or morephysical connections to the media device 110, and/or non-invasivemonitoring not involving any physical connection to the media device110. For example, the site meter 125 may process audio signals obtainedfrom the media device 110 via a microphone and/or a direct cableconnection to detect media and/or source identifying audio codes and/oraudio watermarks embedded in audio portion(s) of the media contentpresented by the media device 110. Additionally or alternatively, thesite meter 125 may process video signals obtained from the media device110 via a camera and/or a direct cable connection to detect contentand/or source identifying video codes and/or video watermarks embeddedin video portion(s) of the media content presented by the media device110. Additionally or alternatively, the site meter 125 may process theaforementioned audio signals and/or video signals to generate respectiveaudio and/or video signatures from the media presented by the mediadevice 110, which can be compared to reference signatures to performsource and/or content identification. Any other type(s) and/or number ofmedia content monitoring techniques can additionally or alternatively besupported by the site meter 125.

For example, audio watermarking is a technique used to identify media,such as television broadcasts, radio broadcasts, advertisements(television and/or radio), downloaded media, streaming media,prepackaged media, etc. Existing audio watermarking techniques identifymedia by embedding one or more audio codes (e.g., one or morewatermarks), such as media identifying information and/or an identifierthat may be mapped to media identifying information, into an audioand/or video component. In some examples, the audio or video componentis selected to have a signal characteristic sufficient to hide thewatermark. As used herein, the terms “code” and “watermark” are usedinterchangeably and are defined to mean any identification information(e.g., an identifier) that may be inserted or embedded in the audio orvideo of media (e.g., a program or advertisement) for the purpose ofidentifying the media or for another purpose such as tuning (e.g., apacket identifying header). In some examples, to identify watermarkedmedia, the watermark(s) are extracted by the example site meter 125 andused to access (e.g., at the data processing facility 140) a table ofreference watermarks that are mapped to media identifying information

Unlike media monitoring techniques based on codes and/or watermarksincluded with and/or embedded in the monitored media, fingerprint orsignature-based media monitoring techniques generally use one or moreinherent characteristics of the monitored media during a monitoring timeinterval to generate a substantially unique proxy for the media. Such aproxy is referred to as a signature or fingerprint, and can take anyform (e.g., a series of digital values, a waveform, etc.) representativeof any aspect(s) of the media signal(s)(e.g., the audio and/or videosignals forming the media presentation being monitored). A signature maybe a series of signatures collected in series over a timer interval. Agood signature is repeatable when processing the same mediapresentation, but is unique relative to other (e.g., different)presentations of other (e.g., different) media. Accordingly, the term“fingerprint” and “signature” are used interchangeably herein and aredefined herein to mean a proxy for identifying media that is generatedfrom one or more inherent characteristics of the media.

Signature-based media monitoring generally involves the example sitemeter 125 determining (e.g., generating and/or collecting) signature(s)representative of a media signal (e.g., an audio signal and/or a videosignal) output by a monitored media device 110 and comparing themonitored signature(s) (e.g., at the data processing facility 140) toone or more references signatures corresponding to known (e.g.,reference) media sources. Various comparison criteria, such as across-correlation value, a Hamming distance, etc., can be evaluated todetermine whether a monitored signature matches a particular referencesignature. When a match between the monitored signature and one of thereference signatures is found, the monitored media can be identified ascorresponding to the particular reference media represented by thereference signature that matched the monitored signature. Becauseattributes, such as an identifier of the media, a presentation time, abroadcast channel, etc., are collected for the reference signature,these attributes may then be associated with the monitored media whosemonitored signature matched the reference signature. Example systems foridentifying media based on codes and/or signatures are long known andwere first disclosed in Thomas, U.S. Pat. No. 5,481,294, which is herebyincorporated by reference in its entirety.

In the example of FIG. 1, the audience measurement system 100 includesthe example enhanced people meter 130 to capture information about theaudience 120 that is consuming the media presented by the media device110. As described in further detail below, the enhanced people meter 130of the illustrated example prompts the audience 120 to actively provideaudience identification information via a user interface. For example,the enhanced people meter 130 may emit (e.g., audibly and/or visually) aprompting indicator during a current prompting interval. In suchexamples, the audience 120 can respond to the prompting indicator byusing a user interface of the people meter 130 and/or a remote controldevice to identify which of a possible set of audience members arepresent in the audience 120.

In the illustrated example of FIG. 1, the site meter 125 triggers theenhanced people meter 130 via an example communication interface 145 tocontrol the prompting intervals during which the enhanced people meter130 is to prompt the audience 120 to actively provide audienceidentification information. For example, the site meter 125 causes theenhanced meter 130 to operate in one or more prompting modes to performaudience prompting based on, for example, a pre-configured promptinginterval corresponding to a pre-configured prompting frequency, aprompting interval specified during configuration of the enhanced peoplemeter 130 and corresponding to a specified prompting frequency, and/orbased on monitored characteristics of the media being presented by themedia device 110 (e.g., to cause prompting to occur upon detection ofevents, such as channel change events, content transition events, audiomuting/un-muting events, etc.), etc.

For example, the enhanced people meter 130 (e.g., as triggered by theexample site meter 125) may be configurable to operate in a normalprompting mode, a rude prompting mode and a quiet mode in which theenhanced people meter 130 performs no prompting. In some such examples,the enhanced people meter 130 operates in the quiet mode until beingtriggered to enter the normal prompting mode to begin a promptinginterval. Then, when the enhanced people meter 130 is triggered (e.g.,by the site meter 125) to begin a prompting interval, the enhancedpeople meter 130 enters the normal prompting mode (e.g., autonomouslyand/or based on control command/signal received from the site meter 125)to perform normal audience prompting. In the normal prompting mode, theenhanced people meter 130 emits a prompting indicator according to afirst (e.g., normal) configuration to indicate that members of theaudience 120 should provide user input(s) to register their presencewith the people meter 130. For example, the first configuration maycause the enhanced people meter 130 to activate a visual indicator, suchas one or more lamps, light emitting diodes (LEDs) etc., and/or presenta text/graphics message via a liquid crystal display (LCD) and/or otherdisplay, at a first brightness, in a first color, according to a first(e.g., normal) visual pulsing pattern having a first (e.g., normal)visual repetition frequency, etc., to gain the attention of members ofthe audience 120 to prompt them to enter user input(s) to register withthe people meter 130. Additionally or alternatively, the firstconfiguration may cause the enhanced people meter 130 to activate anaudible indicator, such as a tone and/or sound, etc., via one or morespeakers at a first loudness/volume, according to a first (e.g., normal)audible pulsing pattern having a first (e.g., normal) audible repetitionfrequency, etc., to prompt them enter user input(s) to register with thepeople meter 130. In response to detecting one or more user inputs whileoperating in the normal prompting mode, the example enhanced peoplemeter 130 (e.g., autonomously and/or as triggered by the example sitemeter 125) returns to the quiet mode to end user prompting until thenext prompting interval.

However, if no user input is detected for a first (e.g., normal mode)time period (e.g., which may be user-configurable, predetermined, etc.),the enhanced people meter 130 is triggered to enter the rude promptingmode (e.g., autonomously based on expiration of an internal clock/timer,etc., and/or based on control command/signal received from the sitemeter 125) to perform rude audience prompting. In the rude promptingmode, the enhanced people meter 130 emits a prompting indicatoraccording to a second (e.g., rude) configuration to indicate thatmembers of the audience 120 should provide user input(s) to registertheir presence with the people meter 130. For example, the secondconfiguration may cause the enhanced people meter 130 to activate avisual indicator, such as one or more lamps, LEDs, etc., and/or presenta text/graphics message via an LCD and/or other display, at a secondbrightness (e.g., brighter than a the first brightness), in a secondcolor (e.g., such as a color associated with a warning color) differentfrom the first color, according to a second (e.g., rude) visual pulsingpattern different from the first pulsing pattern and having a second(e.g., rude) visual repetition frequency (e.g., which may be higher thanthe first visual repetition frequency), etc., to attempt to further gainthe attention of members of the audience 120 to prompt them to enteruser input(s) to register with the people meter 130. Additionally oralternatively, the second configuration may cause the enhanced peoplemeter 130 to activate an audible indicator, such as a tone and/or sound,etc., via one or more speakers at a second loudness/volume (e.g., louderthan the first loudness/volume), according to a second (e.g., rude)audible pulsing pattern different from the first pulsing pattern andhaving a second (e.g., rude) audible repetition frequency (e.g., whichmay be higher than the first audible repetition frequency), etc., toprompt them enter user input(s) to register with the people meter 130.In response to detecting one or more user inputs while operating in therude prompting mode, or in response to expiration of a second (e.g.,rude mode) time period, the example enhanced people meter 130 (e.g.,autonomously and/or as triggered by the example site meter 125) returnsto the quiet mode to end user prompting until the next promptinginterval.

The example enhanced people meter 130 of FIG. 1 also includes an examplelight projector 150 to project light onto any surface, such as onto anexternal surface of a display screen of the media device 110 beingmonitored, and/or anywhere else. For example, the enhanced people meter130 can use the light projector 150 to project light onto an area 155 ofthe external display surface of media device 110 when the enhancedpeople meter 130 is operating in one or more prompting modes (e.g., astriggered by the example site meter 125). As described above and infurther detail below, in some examples, the enhanced people meter 130(e.g., in combination with the site meter 125) can operate in differentprompting modes, such as the normal prompting mode and the rudeprompting mode described above and in further detail below, based on theresponsiveness of the audience 120 to the prompting indicator(s) emittedby the enhanced people meter 130. In some examples, the enhanced peoplemeter 130 activates the light projector 150 to project light onto thearea 155 of the external display surface of media device 110 accordingto a first projection configuration in response to detecting (e.g.,autonomously and/or based on control command/signal received from thesite meter 125) that the enhanced people meter 130 is to enter the rudeprompting mode, but not when the enhanced people meter is toenter/operate in the normal operating mode or the quiet mode. In somesuch examples, in the first projection configuration, the enhancedpeople meter 130 activates the light projector 150 to project light,such as a white spot, a colored spot, a text message, etc., onto thearea 155 of the external display surface of media device 110 accordingto a first projection pulsing pattern having a first projection pulsingfrequency after the light projector 150 is activated. In some suchexamples, the enhanced people meter 130 controls the light projector 150according to a second projection configuration different from the firstprojection configuration in response to determining (e.g., autonomouslybased on an internal clock/time, and/or based on control command/signalreceived from the site meter 125) a first projection time period haselapsed while the light projector remains activated (e.g., when no userinput has been detected during the first projection time period). Insome examples, in the second projection configuration, the enhancedpeople meter 130 controls the light projector 150 according to a secondprojection pulsing pattern (e.g., different from the first projectionpulsing pattern) having a second projection pulsing frequency (e.g.,which is higher than the first projection pulsing frequency).Additionally or alternatively, in some such examples, in the secondprojection configuration, the enhanced people meter 130 controls thelight projector 150 to at least one of change a color or change theprojection area 155 of the light in response to determining (e.g.,autonomously based on an internal clock/time, and/or based on controlcommand/signal received from the site meter 125) the first projectiontime period has elapsed while the light projector remains activated.Then, the enhanced people meter 130 controls the light projector 150 tostop projecting light in response to, for example, determining (e.g.,autonomously based on an internal clock/timer, and/or based on controlcommand/signal received from the site meter 125) that a secondprojection time period has expired, or determining (e.g., autonomouslyand/or based on control command/signal received from the site meter 125)the people meter 130 has returned to the quiet mode (e.g., in responseto a user input or expiration of the rude mode time period).

In other examples, the enhanced people meter 130 activates the lightprojector 150 to project light onto an area 155 of the external displaysurface of media device 110 in response to detecting (e.g., autonomouslyand/or based on control command/signal received from the site meter 125)that the enhanced people meter 130 is to enter any prompting mode, butnot when the enhanced people meter is to enter/operate in the quietmode. In some such examples, the enhanced people meter 130 controls thelight projector 150 to project light onto the area 155 of the externaldisplay surface of media device 110 according to the first projectionconfiguration described above in response to detecting (e.g.,autonomously and/or based on control command/signal received from thesite meter 125) that the enhanced people meter 130 is to enter thenormal prompting mode. In some such examples, the enhanced people meter130 controls the light projector 150 to project light onto the area 155of the external display surface of media device 110 according to thesecond projection configuration described above in response to detecting(e.g., autonomously and/or based on control command/signal received fromthe site meter 125) that the enhanced people meter 130 is to enter therude prompting mode. In some such examples, the enhanced people meter130 controls the light projector 150 to stop projecting light inresponse to detecting (e.g., autonomously and/or based on controlcommand/signal received from the site meter 125) that the enhancedpeople meter 130 is to enter the quiet mode.

FIG. 2 illustrates front and side views of an example arrangement of themedia device 110 and the example enhanced people meter 130 with theexample light projector 150 of FIG. 1. In the illustrated example ofFIG. 2, the enhanced people meter 130 is enclosed in an example housingstructured to be positioned on top of the media device 110. In theillustrated example of FIG. 2, the light projector 150 is positioned onthe top of the enhanced people meter 130 by being, for example,integrated into the enhanced people meter 130, affixed or otherwisecoupled to the enhanced people meter 130, etc. As shown in the side viewof the FIG. 2, the light projector 150 includes an example arm 205 andan example light source 210 that are coupled by an example hinge 215 orother example adjustable connector 215 capable of positioning the lightsource 210 to project light onto the area 155 of the external displaysurface of media device 110.

As noted above, in some examples, the example light projector 150 isintegrated with the enhanced people meter 130, whereas in otherexamples, the light projector 150 is separate from, but structured to beaffixed or otherwise coupled to, the enhanced people meter 130. Anexample integrated version of the enhanced people meter 130 isillustrated in FIG. 3, whereas an example non-integrated version of theenhanced people meter is illustrated in FIG. 4. In the illustratedexample of FIG. 3, the integrated version of the enhanced people meter130 includes the light projector 150 in the same housing as the peoplemeter 130. The example of FIG. 3 further illustrates the exampleenhanced people meter 130 in communication with the example site meter125 via an example communication link 305 (e.g., corresponding to theexample communication interface 145). In the illustrated example, thecommunication link 305 is implemented by a universal serial bus (USB)link. However, the communication link 305 may be implementedadditionally or alternatively using any other type and/or number ofwired link(s), any type(s) and/or number of wireless links (e.g., suchas one or more Bluetooth connections, wireless local area networks(LANs), infrared (IR) links, etc.), etc., or combination thereof. In theillustrated example of FIG. 3, the enhanced people meter 130 uses thecommunication link 305 to receive one or more trigger commands, signals,etc., from the site meter 125, and to report to the site meter 125people meter data, such as counts and identifiers of members of theaudience 120 who provide user input(s) to register with the people meter130 in response to audience prompting.

In the illustrated example of FIG. 4, the example light projector 150 isincluded in a housing that is separate from the housing of the exampleenhanced people meter 130. The example of FIG. 4 further illustrates theexample enhanced people meter 130 in communication with the example sitemeter 125 via an example communication link 402 (e.g., corresponding tothe example communication interface 145) between the site meter 125 andthe light projector 150, and an example communication link 405 betweenthe light projector 150 and the enhanced people meter 130. In theexample of FIG. 4, the enhanced people meter 130 controls the lightprojector 150 via an example communication link 405, and uses thecombination of the communication link 402 and communication link 405 toreceive one or more trigger commands, signals, etc., from the site meter125, and to report to the site meter 125 people meter data, such ascounts and identifiers of members of the audience 120 who provide userinput(s) to register with the people meter 130 in response to audienceprompting. In the illustrated example, the communication links 402 and405 are implemented by USB links. However, the communication links 402and/or 405 may be implemented additionally or alternatively using anyother type and/or number of wired link(s), any type(s) and/or number ofwireless links (e.g., such as one or more Bluetooth connections, WLANs,IR links, etc.), etc., or combination thereof. In the illustratedexample of FIG. 4, the enhanced people meter 130 uses the communicationlink 405 to transmit one or more commands, signals, etc., to controlactivation and deactivation of the light projector 150, to controlcharacteristics (e.g., brightness, color, size, position, text content,pulsing, etc.) of the light emitted by the light projector 150, etc.

A block diagram of an example implementation of an example integratedversion of the enhanced people meter 130 of FIGS. 1, 2 and/or 3 isillustrated in FIG. 5. The example enhanced people meter 130 of FIG. 5includes an example USB interface 505 to communicate with a site meter,such as the example site meter 125, via an example communication link,such as the example communication link 305. The enhanced people meter130 of the illustrated example uses the USB interface 505 to receive oneor more prompting triggers provided by the site meter 125 to control theprompting intervals during which the people meter 130 is to prompt anaudience, such as the example audience 120, to actively provide audienceidentification information. In some examples, the prompting trigger isactivated by the site meter 125 to cause audience prompting based on,for example, a pre-configured prompting interval corresponding to apre-configured prompting frequency, a prompting interval specifiedduring configuration of the enhanced people meter 130 and correspondingto a specified prompting frequency, and/or based on monitoredcharacteristics of the media being presented by a media device, such asthe example media device 110 (e.g., to cause prompting to occur upondetection of events, such as channel change events, media transitionevents (e.g., such as blank frames and/or other discontinuities betweenprograms and commercials), audio muting/un-muting events, etc.), etc. Insome examples, the site meter 125 provides different prompting triggersto cause the enhanced people meter 130 to operate in one or multipledifferent prompting modes, such as the normal and rude prompting modesdescribed above and in further detail below.

The example enhanced people meter 130 of FIG. 5 also includes an exampleuser interface 515 via which audience identification information can beobtained from the audience 120. In the illustrated example, the userinterface 515 includes a set of audience keys 520, such that eachaudience key 520 is assigned to represent a respective possible memberof the audience 120. Additional interface components 525, such asadditional key(s), push buttons, displays, etc., are included in theuser interface 515 to enable new/guest audience members to be enrolledand associated with a particular audience key 520 of the enhanced peoplemeter 130. For example, the additional interface components 525 maypermit a new/guest audience member to input demographic information,such as gender, age, etc., to the enhanced people meter 130, after whichthe new/guest audience member is associated with one of the audiencekeys 520. The user interface 515 can also be implemented on a remotedevice, which is not depicted in FIG. 3, to enable the audience 120 tointeract with the enhanced people meter 130 remotely.

The example enhanced people meter 130 of FIG. 3 includes an examplepeople meter controller 530 to control the people meter 130 to promptthe audience 120 to enter audience identification information via theuser interface 515. For example, the people meter controller 530 mayinitiate an audience prompt during a current prompting interval (e.g.,as triggered by the prompting trigger(s)) by activating an exampleprompting indicator 535, which may correspond to a flashing lightemitted by one or more lamps, LEDs, etc., a text message presented by anLCD screen, a sound emitted by one or more speakers, etc., or anycombination thereof. In response to perceiving the activated promptingindicator 535, the members of the audience 120 press their respectiveaudience key(s) 520 on the user interface 515 to indicate their presencein the audience 120. The results of the audience prompting, such asidentifiers of the audience members who responded to the prompt, countsof the number of audience members over time, etc., are compiled by thepeople meter controller 530 of the illustrated example. The examplepeople meter controller 530 further stores the compiled audiencemeasurement information in an example storage 540 of the enhanced peoplemeter 130 and reports the compiled audience measurement information tothe site meter 125 via the example USB interface 505. The examplestorage 540 may be implemented by any type of storage and/or memorydevice, a database, etc., such as the mass storage device 928 and/or thevolatile memory 914 included in the example processing system 900 ofFIG. 9, which is described in greater detail below.

In the illustrated example of FIG. 5, the people meter controller 530causes the enhanced people meter to operate in a normal prompting mode,a rude prompting mode or a quiet mode (in which the enhanced peoplemeter 130 performs no prompting) based on one or more prompting triggersreceived via the USB interface 505 or generated autonomously (e.g.,internally) by the people meter controller 530 (e.g., based on one ormore clocks, timers, counters, etc.). For example the people metercontroller 530 operates the enhanced people meter 130 in the quiet modeuntil being triggered to enter the normal prompting mode to begin aprompting interval. Then, when the people meter controller 530 istriggered (e.g., by the site meter 125) to begin a prompting interval,people meter controller 530 causes the enhanced people meter 130 toenter the normal prompting mode (e.g., autonomously and/or based oncontrol command/signal received from the site meter 125) to performnormal audience prompting. In the normal prompting mode, the peoplemeter controller 530 activates the prompting indicator 535 to operateaccording to a first (e.g., normal) configuration, as described above,to indicate that members of the audience 120 should provide userinput(s) to register their presence with the people meter 130. Inresponse to detecting one or more user inputs from the user interface515 while operating in the normal prompting mode, the example peoplemeter controller 530 (e.g., autonomously and/or as triggered by theexample site meter 125) causes the enhanced people meter 130 to returnto the quiet mode to end user prompting until the next promptinginterval.

However, if no user input is detected for a first (e.g., normal mode)time period (e.g., which may be user-configurable, predetermined, etc.),the people meter controller 530 of the illustrated example is triggeredto enter the rude prompting mode (e.g., autonomously based on expirationof an internal clock/timer, etc., and/or based on a controlcommand/signal received from the site meter 125) to perform rudeaudience prompting. In the rude prompting mode, the people metercontroller 530 activates the prompting indicator 535 to operateaccording to a second (e.g., rude) configuration, as described above, toprompt members of the audience 120 with greater urgency to provide userinput(s) to register their presence with the people meter 130. Inresponse to detecting one or more user inputs while operating in therude prompting mode, or in response to expiration of a second (e.g.,rude mode) time period, the example people meter controller 530 causes(e.g., autonomously and/or as triggered by the example site meter 125)the enhanced people meter 130 to return to the quiet mode to end userprompting until the next prompting interval.

To implement light projection for people metering as disclosed herein,the example enhanced people meter 130 of FIG. 5 includes an exampledigital light projector (DLP) 545 and an example DLP controller 550,which collectively implement the example light projector 150 of FIGS. 1,2 and/or 3. The DLP 545 can be implemented by using any type of DLPtechnology and/or other digitally controlled light projector, lightemitter, etc. The DLP controller 550 of the illustrated examplesconfigures and activates the DLP 545 to project light onto an area 155of the external display surface of the example media device 110 when theenhanced people meter 130 is operating in one or more prompting modes(e.g., as triggered by the example site meter 125 and/or controlled bythe example people meter controller 530). As such, the example DLPcontroller 550 includes an example prompting mode detector 555 to detectthe prompting mode of the enhanced people meter 130, as well astransitions between supported prompting modes. The example DLPcontroller 550 also includes an example DLP configurer 560 to configurea particular projection configuration for operating the DLP 545, and anexample DLP actuator 565 to activate and deactivate the DLP 545according to the projection configuration configured by the DLPconfigurer 560.

In some examples, the DLP controller 550 uses the DLP actuator toactivate the DLP 545 to project light onto the area 155 of the externaldisplay surface of media device 110 according to a first projectionconfiguration configured by the DLP configurer 560 in response to theprompting mode detector 555 detecting (e.g., autonomously and/or basedon control command/signal received from the site meter 125 and/or peoplemeter controller 530) that the enhanced people meter 130 is to enter therude prompting mode, but not when the enhanced people meter 130 is toenter/operate in the normal operating mode or the quiet mode. In somesuch examples, in the first projection configuration, the DLP configurer560 configures the DLP actuator 565 to activate the DLP 545 to projectlight, such as a white spot, a colored spot, a text message, etc., ontothe area 155 of the external display surface of media device 110according to a first projection pulsing pattern having a firstprojection pulsing frequency when the DLP 545 is initially activated. Insome such examples, the DLP actuator 565 activates the DLP 545 accordingto a second projection configuration configured by the DLP configurer560 (e.g., which is different from the first projection configuration)in response to the prompting mode detector 555 determining (e.g.,autonomously based on an internal clock/time, and/or based on controlcommand/signal received from the site meter 125 and/or people metercontroller 530) a first projection time period has elapsed while the DLP545 remains activated (e.g., when no user input has been detected duringthe first projection time period). In some examples, in the secondprojection configuration, the DLP configurer 560 configures the DLPactuator 565 to control the DLP 545 according to a second projectionpulsing pattern (e.g., different from the first projection pulsingpattern) having a second projection pulsing frequency (e.g., which ishigher than the first projection pulsing frequency). Additionally oralternatively, in some such examples, in the second projectionconfiguration, the DLP configurer 560 configures the DLP actuator 565 tocontrol the DLP 545 to at least one of change a color or change theprojection area 155 of the light in response to determining (e.g.,autonomously based on an internal clock/time, and/or based on controlcommand/signal received from the site meter 125 and/or people metercontroller 530) the first projection time period has elapsed while thelight projector remains activated. Then, the DLP actuator 565 controls(e.g., deactivates) the DLP 545 to stop projecting light in response to,for example, the prompting mode detector 555 determining (e.g.,autonomously based on an internal clock/timer, and/or based on a controlcommand/signal received from the site meter 125 and/or people metercontroller 530) that a second projection time period has expired, ordetermining (e.g., autonomously and/or based on control command/signalreceived from the site meter 125 and/or people meter controller 530) thepeople meter 130 has returned to the quiet mode (e.g., in response to auser input or expiration of the rude mode time period).

In some examples, the DLP configurer 560 configures the DLP actuator 565to activate the DLP 545 to project light onto an area 155 of theexternal display surface of media device 110 in response to theprompting mode detector 555 detecting (e.g., autonomously and/or basedon control command/signal received from the site meter 125 and/or peoplemeter controller 530) that the enhanced people meter 130 is to enter anyprompting mode, but not when the enhanced people meter is toenter/operate in the quiet mode. In some such examples, the DLPconfigurer 560 configures the DLP actuator 565 to activate the DLP 545to project light onto the area 155 of the external display surface ofmedia device 110 according to the first projection configurationdescribed above in response to the prompting mode detector 555 detecting(e.g., autonomously and/or based on control command/signal received fromthe site meter 125 and/or the people meter controller 530) that theenhanced people meter 130 is to enter the normal prompting mode. In somesuch examples, the DLP configurer 560 configures the DLP actuator 565 toactivate the DLP 545 to project light onto the area 155 of the externaldisplay surface of media device 110 according to the second projectionconfiguration described above in response to the prompting mode detector555 detecting (e.g., autonomously and/or based on control command/signalreceived from the site meter 125 and/or the people meter controller 530)that the enhanced people meter 130 is to enter the rude prompting mode.In some such examples, the DLP configurer 560 configures the DLPactuator 565 to control (e.g., deactivate) the DLP 545 to stopprojecting light in response to the prompting mode detector 555detecting (e.g., autonomously and/or based on control command/signalreceived from the site meter 125 and/or the people meter controller 530)that the enhanced people meter 130 is to enter the quiet mode.

The example enhanced people meter 130 of FIG. 5 further includes anexample power supply 570 to power the meter components, including, butnot limited to, the example USB interface 505, the example userinterface 515, the example people meter controller 530, the examplestorage 540, the example DLP 545 and the example DLP controller 550.

A block diagram of an example implementation of an examplenon-integrated version of the enhanced people meter 130 of FIGS. 1, 2and/or 4 is illustrated in FIG. 6. The example non-integrated version ofthe enhanced people meter 130 of FIG. 6 includes many elements in commonwith the example integrated version of the enhanced people meter 130 ofFIG. 5. As such, like elements in FIGS. 5 and 6 are labeled with thesame reference numerals. The detailed descriptions of these likeelements are provided above in connection with the discussion of FIG. 5and, in the interest of brevity, are not repeated in the discussion ofFIG. 6.

For example, the example non-integrated version of the enhanced peoplemeter 130 of FIG. 6 includes the example USB interface 505, the exampleuser interface 515, the example people meter controller 530, the examplestorage 540 and the example power supply 570 described above in anexample people meter housing 605. The example non-integrated version ofthe enhanced people meter 130 of FIG. 6 includes the example DLP 545 andthe example DLP controller 550 described above in a separate examplelight projector housing 610. In the illustrated example of FIG. 6, thelight projector housing 610 also includes first and second example USBinterfaces 615 and 620, as well as an example USB hub 625, to allow thelight projector housing 610 to be communicatively coupled between thepeople meter housing 605 and a site meter, such as the example sitemeter 125. For example, the first USB interface 615 of the lightprojector housing 610 can be coupled with the USB interface 505 of thepeople meter housing 605 to implement the example communication link405, as shown. The second USB interface 620 of the light projectorhousing 610 can be coupled with the site meter 125 to implement theexample communication link 305, as shown. In some examples, the lightprojector housing 610 includes its own example storage 630 and/orexample power supply 635 to support autonomous operation (e.g., separatefrom the people meter housing 605).

While an example manner of implementing the enhanced people meter 130 isillustrated in FIGS. 1-6, one or more of the elements, processes and/ordevices illustrated in FIGS. 1-6 may be combined, divided, re-arranged,omitted, eliminated and/or implemented in any other way. Further, theexample light projector 150, the communication links 305 and/or 405, theexample USB interfaces 505, 615 and/or 620, the example user interface515, the example people meter controller 530, the example storages 540and/or 630, the example DLP 545, the example DLP controller 550, theexample prompting mode detector 555, the example DLP configurer 560, theexample DLP actuator 565, the example power supplies 570 and/or 635, theexample USB hub 625 and/or, more generally, the example enhanced peoplemeter 130 of FIGS. 1-6 may be implemented by hardware, software,firmware and/or any combination of hardware, software and/or firmware.Thus, for example, any of the example light projector 150, thecommunication links 305 and/or 405, the example USB interfaces 505, 615and/or 620, the example user interface 515, the example people metercontroller 530, the example storages 540 and/or 630, the example DLP545, the example DLP controller 550, the example prompting mode detector555, the example DLP configurer 560, the example DLP actuator 565, theexample power supplies 570 and/or 635, the example USB hub 625 and/or,more generally, the example enhanced people meter 130 could beimplemented by one or more analog or digital circuit(s), logic circuits,programmable processor(s), application specific integrated circuit(s)(ASIC(s)), programmable logic device(s) (PLD(s)) and/or fieldprogrammable logic device(s) (FPLD(s)). When reading any of theapparatus or system claims of this patent to cover a purely softwareand/or firmware implementation, at least one of the example enhancedpeople meter 130, the example light projector 150, the communicationlinks 305 and/or 405, the example USB interfaces 505, 615 and/or 620,the example user interface 515, the example people meter controller 530,the example storages 540 and/or 630, the example DLP 545, the exampleDLP controller 550, the example prompting mode detector 555, the exampleDLP configurer 560, the example DLP actuator 565, the example powersupplies 570 and/or 635, and/or the example USB hub 625 is/are herebyexpressly defined to include a tangible computer readable storage deviceor storage disk such as a memory, a digital versatile disk (DVD), acompact disk (CD), a Blu-ray disk, etc. storing the software and/orfirmware. Further still, the example enhanced people meter 130 mayinclude one or more elements, processes and/or devices in addition to,or instead of, those illustrated in FIGS. 1-6, and/or may include morethan one of any or all of the illustrated elements, processes anddevices.

Flowcharts representative of example machine readable instructions forimplementing the example enhanced people meter 130, the example lightprojector 150, the communication links 305 and/or 405, the example USBinterfaces 505, 615 and/or 620, the example user interface 515, theexample people meter controller 530, the example storages 540 and/or630, the example DLP 545, the example DLP controller 550, the exampleprompting mode detector 555, the example DLP configurer 560, the exampleDLP actuator 565, the example power supplies 570 and/or 635, and/or theexample USB hub 625 are shown in FIGS. 7-8. In these examples, themachine readable instructions comprise one or more programs forexecution by a processor, such as the processor 912 shown in the exampleprocessor platform 900 discussed below in connection with FIG. 9. Theone or more programs, or portion(s) thereof, may be embodied in softwarestored on a tangible computer readable storage medium such as a CD-ROM,a floppy disk, a hard drive, a digital versatile disk (DVD), a Blu-rayDisk™ or a memory associated with the processor 912, but the entireprogram or programs and/or portions thereof could alternatively beexecuted by a device other than the processor 912 and/or embodied infirmware or dedicated hardware (e.g., implemented by an ASIC, a PLD, anFPLD, discrete logic, etc.). Further, although the example program(s)is(are) described with reference to the flowcharts illustrated in FIGS.7-8, many other methods of implementing the example enhanced peoplemeter 130, the example light projector 150, the communication links 305and/or 405, the example USB interfaces 505, 615 and/or 620, the exampleuser interface 515, the example people meter controller 530, the examplestorages 540 and/or 630, the example DLP 545, the example DLP controller550, the example prompting mode detector 555, the example DLP configurer560, the example DLP actuator 565, the example power supplies 570 and/or635, and/or the example USB hub 625 may alternatively be used. Forexample, with reference to the flowcharts illustrated in FIGS. 7-8, theorder of execution of the blocks may be changed, and/or some of theblocks described may be changed, eliminated, combined and/or subdividedinto multiple blocks.

As mentioned above, the example processes of FIGS. 7-8 may beimplemented using coded instructions (e.g., computer and/or machinereadable instructions) stored on a tangible computer readable storagemedium such as a hard disk drive, a flash memory, a read-only memory(ROM), a compact disk (CD), a digital versatile disk (DVD), a cache, arandom-access memory (RAM) and/or any other storage device or storagedisk in which information is stored for any duration (e.g., for extendedtime periods, permanently, for brief instances, for temporarilybuffering, and/or for caching of the information). As used herein, theterm tangible computer readable storage medium is expressly defined toinclude any type of computer readable storage device and/or storage diskand to exclude propagating signals and to exclude transmission media. Asused herein, “tangible computer readable storage medium” and “tangiblemachine readable storage medium” are used interchangeably. Additionallyor alternatively, the example processes of FIGS. 7-8 may be implementedusing coded instructions (e.g., computer and/or machine readableinstructions) stored on a non-transitory computer and/or machinereadable medium such as a hard disk drive, a flash memory, a ROM, a CD,a DVD, a cache, a RAM and/or any other storage device or storage disk inwhich information is stored for any duration (e.g., for extended timeperiods, permanently, for brief instances, for temporarily buffering,and/or for caching of the information). As used herein, the termnon-transitory computer readable medium is expressly defined to includeany type of computer readable storage device and/or storage disk and toexclude propagating signals and to exclude transmission media. As usedherein, when the phrase “at least” is used as the transition term in apreamble of a claim, it is open-ended in the same manner as the terms“comprising” and “including” are open ended. Also, as used herein, theterms “computer readable” and “machine readable” are consideredequivalent unless indicated otherwise.

An example program 700 that may be executed to implement the exampleenhanced people meter 130 of FIGS. 1-6. With reference to the precedingfigures and associated written descriptions, the example program 700 ofFIG. 7 begins execution at block 705 at which the example DLP controller550 of the enhanced people meter 130 determines whether the enhancedpeople meter has been triggered to enter a prompting mode to beginaudience prompting, as described above. If the DLP controller 550determines the enhanced people meter 130 is to begin prompting (block710) and is to operate in a rude prompting mode (block 715), processingproceeds to block 720 at which the DLP controller 550 causes the exampleDLP 545 of the enhanced people meter 130 to project light onto the area155 of the external display surface of media device 110 according to agiven projection configuration, as described above. An example programto implement the processing at block 720 is illustrated in FIG. 8, whichis described in further detail below.

After activating the DLP 545 at block 720, the DLP controller 550determines, as described above, whether the example people metercontroller 530 of the enhanced people meter 130 has received a userinput via the example user interface 515 (block 725) or if a timeoutperiod has expired (block 730). If no user input is received (block 725)and the timeout period has not expired (block 730), processing returnsto block 720 at which the DLP controller 550 continues to activate theDLP 545 to project light onto the area 155 of the external displaysurface of media device 110. However, if a user input is received (block725) or the timeout period has expired (block 730), processing proceedsto block 735 at which the DLP controller 550 deactivates the DLP 545, asdescribed above. At block 740, if people metering is to continue (e.g.,because the enhanced people meter 130 has not been placed in an off orstandby mode), processing returns to block 705 and blocks subsequentthereto. Otherwise, execution of the example program 700 ends.

An example program 720P that may be executed to implement the processingat block 720 of FIG. 7 is illustrated in FIG. 8. With reference to thepreceding figures and associated written descriptions, the exampleprogram 720P of FIG. 8 begins execution at block 805 at which theexample DLP controller 550 of the example enhanced people meter 130determines whether the example DLP 545 of the enhanced people meter 130was previously activated (e.g., and, thus, the enhanced people meter 130has entered the rude prompting mode). If the DLP 545 was not previouslyactivated (block 805), processing proceeds to block 810 at which theexample DLP configurer 560 of the DLP controller 550 of the enhancedpeople meter 130 configures the DLP 545 to project light onto the area155 of the external display surface of media device 110 according to thefirst projection configuration described above. At block 815, theexample DLP configurer 560 causes the example DLP actuator 565 of theDLP controller 550 of the enhanced people meter 130 to activate the DLP545 in accordance with the first projection configuration, as describedabove. At block 820, the DLP controller 550 activates a timer to trackwhether the DLP 545 has been activated according to the first projectionconfiguration for the time period described above. Execution of theexample program 720P then ends.

However, if the DLP 545 was determined at block 805 to have beenpreviously activated, processing proceeds to block 825 at which the DLPcontroller 550 determines, as described above, whether the time periodfor operating according to the first projection mode has expired. If thetime period has not expired (block 825), then the DLP actuator 565 ofthe DLP controller 550 continues to activate the DLP 545 in accordancewith the first projection configuration, as described above. However, ifthe time period has expired (block 825), then processing proceeds toblock 830 at which the DLP configurer 560 of the DLP controller 550configures the DLP 545 to project light onto the area 155 of theexternal display surface of media device 110 according to the secondprojection configuration described above. At block 835, the DLPconfigurer 560 causes the DLP actuator 565 of the DLP controller 550 toactivate the DLP 545 in accordance with the second projectionconfiguration, as described above. Execution of the example program 720Pthen ends.

FIG. 9 is a block diagram of an example processor platform 900structured to execute the instructions of FIGS. 7 and/or 8 to implementthe example enhanced people meter 130 of FIGS. 1-6. The processorplatform 900 can be, for example, a server, a personal computer, amobile device (e.g., a cell phone, a smart phone, a tablet such as aniPad™), a personal digital assistant (PDA), an Internet appliance, a DVDplayer, a CD player, a digital video recorder, a Blu-ray player, agaming console, a personal video recorder, a set top box a digitalcamera, or any other type of computing device. In some examples, whenimplementing the example integrated version of the enhanced people meter130 of FIG. 5, one instance of the example processor system 900 is usedto implement the enhanced people meter 130. In some examples, whenimplementing the example non-integrated version of the enhanced peoplemeter 130 of FIG. 6, multiple instances of systems similar to theexample processor system 900 are used with, for example, one systembeing included in example people meter housing 605 to implement peoplemetering functionality, as described above, and another system beingincluded in the example light projector housing 610 to implement lightprojection functionality, as described above.

The processor platform 900 of the illustrated example includes aprocessor 912. The processor 912 of the illustrated example is hardware.For example, the processor 912 can be implemented by one or moreintegrated circuits, logic circuits, microprocessors or controllers fromany desired family or manufacturer. In some examples, when implementingthe example integrated version of the enhanced people meter 130 of FIG.5, the example processor 912 is configured via example instructions 932,which include the example instructions of FIGS. 7 and/or 8, to implementthe example people meter controller 530, the example DLP controller 550,the example prompting mode detector 555, the example DLP configurer 560and the example DLP actuator 565. In some examples, when implementingthe example non-integrated version of the enhanced people meter 130 ofFIG. 6, a processor similar to the example processor 912 is included inthe example people meter housing 605 and configured via instructionssimilar to at least some of the example instructions 932 to implementthe example people meter controller 530, whereas another processorsimilar to the example processor 912 is included in the example lightprojector housing 610 and configured via instructions similar to atleast some of the example instructions 932 to implement the example DLPcontroller 550, the example prompting mode detector 555, the example DLPconfigurer 560 and the example DLP actuator 565.

The processor 912 of the illustrated example includes a local memory 913(e.g., a cache). The processor 912 of the illustrated example is incommunication with a main memory including a volatile memory 914 and anon-volatile memory 916 via a link 918. The link 918 may be implementedby a bus, one or more point-to-point connections, etc., or a combinationthereof. The volatile memory 914 may be implemented by SynchronousDynamic Random Access Memory (SDRAM), Dynamic Random Access Memory(DRAM), RAMBUS Dynamic Random Access Memory (RDRAM) and/or any othertype of random access memory device. The non-volatile memory 916 may beimplemented by flash memory and/or any other desired type of memorydevice. Access to the main memory 914 and/or 916 is controlled by amemory controller.

The processor platform 900 of the illustrated example also includes aninterface circuit 920. The interface circuit 920 may be implemented byany type of interface standard, such as an Ethernet interface, auniversal serial bus (USB), and/or a PCI express interface. In someexamples, when implementing the example integrated version of theenhanced people meter 130 of FIG. 5, the example interface circuit 920implements the example USB interface 505. In some examples, whenimplementing the example non-integrated version of the enhanced peoplemeter 130 of FIG. 6, an interface circuit similar to the exampleinterface circuit 920 is included in the example people meter housing605 to implement the example USB interface 505, and another interfacecircuit similar to the example interface circuit 920 is included in theexample light projector housing 610 to implement the first and secondexample USB interfaces 615 and 620, and the example USB hub 625.

In the illustrated example, one or more input devices 922 are connectedto the interface circuit 920. The input device(s) 922 permit(s) a userto enter data and commands into the processor 912. The input device(s)can be implemented by, for example, an audio sensor, a microphone, acamera (still or video), a keyboard, a button, a mouse, a touchscreen, atrack-pad, a trackball, a trackbar (such as an isopoint), a voicerecognition system and/or any other human-machine interface. Also, manysystems, such as the processor platform 900, can allow the user tocontrol the computer system and provide data to the computer usingphysical gestures, such as, but not limited to, hand or body movements,facial expressions, and face recognition. In some examples, the inputdevices 922 used to implement the example integrated version of theenhanced people meter 130 of FIG. 5 or included in the example peoplemeter housing 605 of the example non-integrated version of the enhancedpeople meter 130 of FIG. 6 also implements the example user interface515.

One or more output devices 924 are also connected to the interfacecircuit 920 of the illustrated example. The output devices 924 can beimplemented, for example, by display devices (e.g., a light emittingdiode (LED), an organic light emitting diode (OLED), a liquid crystaldisplay, a cathode ray tube display (CRT), a touchscreen, a tactileoutput device, a printer and/or speakers). The interface circuit 920 ofthe illustrated example, thus, typically includes a graphics drivercard, a graphics driver chip or a graphics driver processor. In someexamples, the output devices 924 used to implement the exampleintegrated version of the enhanced people meter 130 of FIG. 5 orincluded in the example light projector housing 610 of the examplenon-integrated version of the enhanced people meter 130 of FIG. 6 alsoimplements the example DLP 545.

The interface circuit 920 of the illustrated example also includes acommunication device such as a transmitter, a receiver, a transceiver, amodem and/or network interface card to facilitate exchange of data withexternal machines (e.g., computing devices of any kind) via a network926 (e.g., an Ethernet connection, a digital subscriber line (DSL), atelephone line, coaxial cable, a cellular telephone system, etc.).

The processor platform 900 of the illustrated example also includes oneor more mass storage devices 928 for storing software and/or data.Examples of such mass storage devices 928 include floppy disk drives,hard drive disks, compact disk drives, Blu-ray disk drives, RAID(redundant array of independent disks) systems, and digital versatiledisk (DVD) drives. In some examples, the mass storage device 928 and/orthe volatile memory 914 used to implement the example integrated versionof the enhanced people meter 130 of FIG. 5 or included in the examplepeople meter housing 605 of the example non-integrated version of theenhanced people meter 130 of FIG. 6 also implements the example storage540. In some examples, the mass storage device 928 and/or the volatilememory 914 used to implement the example light projector housing 610 ofthe example non-integrated version of the enhanced people meter 130 ofFIG. 6 also implements the example storage 630.

In some examples, the processor system 900 used to implement the exampleintegrated version of the enhanced people meter 130 of FIG. 5 orincluded in the example people meter housing 605 of the examplenon-integrated version of the enhanced people meter 130 of FIG. 6 alsoincludes the example power supply 570, as shown. In some examples, theprocessor system 900 used to implement the example light projectorhousing 610 of the example non-integrated version of the enhanced peoplemeter 130 of FIG. 6 also includes the example power supply 635, asshown.

Coded instructions 932 corresponding to the instructions of FIGS. 7and/or 8 may be stored in the mass storage device 928, in the volatilememory 914, in the non-volatile memory 916, in the local memory 913and/or on a removable tangible computer readable storage medium, such asa CD or DVD 932.

It is noted that this patent claims priority from Indian PatentApplication Serial Number 201611039061, which was filed on Nov. 16,2016, and is hereby incorporated by reference in its entirety.

Although certain example methods, apparatus and articles of manufacturehave been disclosed herein, the scope of coverage of this patent is notlimited thereto. On the contrary, this patent covers all methods,apparatus and articles of manufacture fairly falling within the scope ofthe claims of this patent.

What is claimed is:
 1. A meter comprising: a prompting indicator to emita prompt for user input; and a controller to: determine whether themeter is to transition to a first prompting mode, or whether the meteris to transition to a second prompting mode different from the firstprompting mode, the meter to be able to operate in at least a quietmode, the first prompting mode or the second prompting mode; activatethe prompting indicator and activate a light projector when the meter isto transition to the second prompting mode, the light projector toproject light; and activate the prompting indicator, but not activatethe light projector, when the meter is to transition to the firstprompting mode.
 2. The meter of claim 1, wherein the controller isfurther to deactivate the prompting indicator and deactivate the lightprojector when the meter is to transition to the quiet mode.
 3. Themeter of claim 1, wherein the controller is further to: cause the meterto transition to the first prompting mode in response to a firstcondition; cause the meter to transition to the second prompting mode inresponse to a second condition, and cause the meter to transition to thequiet mode when the user interface receives a response to the prompt foruser input.
 4. The meter of claim 3, wherein the first conditioncorresponds to receipt of a first trigger signal from a device separatefrom the meter, and the second condition corresponds to receipt of asecond trigger signal from the device separate from the meter.
 5. Themeter of claim 3, wherein the meter further includes an internal timingsource, the first condition corresponds to receipt of a first triggersignal from a device separate from the meter, and the second conditioncorresponds to expiration of a time period after the meter transitionsto the first prompting mode, the time period tracked by the internaltiming source.
 6. The meter of claim 5, wherein the time period is afirst time period, the controller is to activate the light projector toproject light according to a first projection configuration when themeter is to transition to the second prompting mode, and the controlleris to control the light projector to project light according to a secondprojection configuration different from the first projectionconfiguration in response to expiration of a second time period afterthe light projector has been activated, the second time period trackedby the internal timing source.
 7. The meter of claim 6, wherein thecontroller is to: activate the prompting indicator according to a firstprompting configuration when the meter is to transition to the firstprompting mode; and activate the prompting indicator according to asecond prompting configuration different from the first promptingconfiguration when the meter is to transition to the second promptingmode
 8. A metering method comprising: determining, by executing aninstruction with a processor, whether a meter is to transition to afirst prompting mode, or whether the meter is to transition to a secondprompting mode different from the first prompting mode, the meter to beable to operate in at least a quiet mode, the first prompting mode orthe second prompting mode; activating, by executing an instruction withthe processor, both a prompting indicator of the meter and a lightprojector when the meter is to transition to the second prompting mode,the prompting indicator to emit a prompt for user input, the lightprojector to project light; and activating, by executing an instructionwith the processor, the prompting indicator of the meter, but notactivating the light projector, when the meter is to transition to thefirst prompting mode.
 9. The method of claim 8, further includingdeactivating the prompting indicator and deactivating the lightprojector when the meter is to transition to the quiet mode.
 10. Themethod of claim 8, further including: causing the meter to transition tothe first prompting mode in response to a first condition; causing themeter to transition to the second prompting mode in response to a secondcondition, and causing the meter to transition to the quiet mode when aresponse to the prompt for user input is received.
 11. The method ofclaim 10, wherein the first condition corresponds to receipt of a firsttrigger signal from a device separate from the meter, and the secondcondition corresponds to receipt of a second trigger signal from thedevice separate from the meter.
 12. The method of claim 10, wherein thefirst condition corresponds to receipt of a first trigger signal from adevice separate from the meter, the second condition corresponds toexpiration of a time period after the meter transitions to the firstprompting mode, and further including determining whether the timeperiod has expired.
 13. The method of claim 12, wherein the time periodis a first time period, and the activating of the light projectorincludes: activating the light projector to project light according to afirst projection configuration when the meter is to transition to thesecond prompting mode; determining whether a second time period hasexpired, the second time period beginning after the light projector hasbeen activated; and controlling the light projector to project lightaccording to a second projection configuration different from the firstprojection configuration in response to expiration of the second timeperiod.
 14. The method of claim 13 wherein: the activating of theprompting indicator when the meter is to transition to the firstprompting mode includes activating the prompting indicator according toa first prompting configuration; and the activating of the promptingindicator when the meter is to transition to the second prompting modeincludes activating the prompting indicator according to a secondprompting configuration different from the first promptingconfiguration.
 15. A non-transitory computer readable medium comprisingcomputer readable instructions which, when executed, cause a processorto at least: determine whether a meter is to transition to a firstprompting mode, or whether the meter is to transition to a secondprompting mode different from the first prompting mode, the meter to beable to operate in at least a quiet mode, the first prompting mode orthe second prompting mode; activate both a prompting indicator of themeter and a light projector when the meter is to transition to thesecond prompting mode, the prompting indicator to emit a prompt for userinput, the light projector to project light; and activate the promptingindicator of the meter, but not activate the light projector, when themeter is to transition to the first prompting mode.
 16. Thenon-transitory computer readable medium of claim 15, wherein theinstructions, when executed, further cause the processor to deactivatethe prompting indicator and deactivate the light projector when themeter is to transition to the quiet mode.
 17. The non-transitorycomputer readable medium of claim 15, wherein the instructions, whenexecuted, further cause the processor to: cause the meter to transitionto the first prompting mode in response to a first condition; cause themeter to transition to the second prompting mode in response to a secondcondition, and cause the meter to transition to the quiet mode when aresponse to the prompt for user input is received.
 18. Thenon-transitory computer readable medium of claim 17, wherein the firstcondition corresponds to receipt of a first trigger signal from a deviceseparate from the meter, and the second condition corresponds to receiptof a second trigger signal from the device separate from the meter. 19.The non-transitory computer readable medium of claim 17, wherein thefirst condition corresponds to receipt of a first trigger signal from adevice separate from the meter, the second condition corresponds toexpiration of a time period after the meter transitions to the firstprompting mode, and the instructions, when executed, further cause theprocessor to determine whether the time period has expired.
 20. Thenon-transitory computer readable medium of claim 19, wherein the timeperiod is a first time period, and the instructions, when executed,cause the processor to: activate the light projector to project lightaccording to a first projection configuration when the meter is totransition to the second prompting mode; determine whether a second timeperiod has expired, the second time period beginning after the lightprojector has been activated; and control the light projector to projectlight according to a second projection configuration different from thefirst projection configuration in response to expiration of the secondtime period.